Homeostasis

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Body stays in the same state. (glucose, O2, temperature)

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Nervous System

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• Neurotransmitters• Cell-to-cell

communication• Fast• Short duration• Muscle contraction and gland secretion

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Endocrine System

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• Hormones• Travel through blood• Speed varies• Lasts longer• Growth, metabolism

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N.S. and Endo. System

together

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Hypothalamus (brain) controls the pituitary gland (endocrine system)

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Target Tissue

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Has receptors for specific hormones

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Protein Hormones

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Most hormones are protein derived. These are prompt (fast) b/c they bind to receptors on cell membrane. Must be injected.

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Steroid Hormones

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Are slow b/c they enter the cell.Made from lipids. Can be taken orally.

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Tropic hormones

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Made in the anterior pituitary. Affect other glands. 4 of them:TSH, ACTH, FSH, LH

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Master gland

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Pituitary gland is called this because it produces tropic hormones. It controls most of the other glands.

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Exocrine gland

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Release substances into ducts. Ex. salivary gland, sweat gland, pancreas (digestive enzymes)

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Pancreas

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Is both an endocrine gland (insulin & glucagon) and an exocrine gland (secretes digestive enzymes into small intestine)

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Negative feedback

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Feedback inhibition.When a hormone level is high enough, it’s production is shut off.

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Central Nervous System

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Brain and spinal cord

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Peripheral Nervous System

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Somatic nerves - Sensory & motor

Autonomic nerves – Sympathetic and parasympathetic

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Glial cells

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Non-conducting cells in the nervous system.

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Neuron

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Myelin Sheath

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Fatty protein that insulates the axon and speeds up transmission. Made from Schwann cells.

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Speed of transmission

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To increase speed:1. Bigger diameter and 2. Myelin sheath

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Nodes of Ranvier

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Gaps in the myelin sheath. Nerve impulses jump from node to node. Called saltatory conduction.

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White matter

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Neurons with a myelin sheath.

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Grey matter

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Neurons without a myelin sheath. Mostly in CNS.

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Multiple Sclerosis

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An autoimmune disease that breaks down the myelin sheath.

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Types of Neurons

Front of card Back of cardSensory – brings info from affectors to CNS Interneuron – no myelin. In CNSMotor- carries impulse away from CNS to effectors

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Reflex Arc

Front of card Back of card1. Affector – receptor; receives

stimulus2. Sensory neuron - carries

impulse to CNS 3. Interneuron – interpretation,

carries impulse through CNS4. Motor neuron - carries

impulse out5. Effector – muscle or gland

that responds

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Polarized

Front of card Back of cardAn unstimulated axon. Resting potential is -70mVinside.

More sodium (Na+) outside than potassium (K+) inside.

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Depolarized

Front of card Back of cardA stimulated axon. Action potential is +40mV. Inside is positive.

Caused by sodium rushing into the axon.

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Na+/K+ pump

Front of card Back of cardActively transports (ATP) 3Na+ out for every 2K+ in.

Returns the axon to resting potential or repolarizes the axon.

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Action Potential

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Refractory Period

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Time it takes the neuron to repolarize before another A.P.

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Threshold

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Minimum stimulus required to cause an AP.

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All-or-None Response

Front of card Back of cardNeurons either reach threshold and fire, or they don’t. Intensity and speed are the same every time.More neurons = more intensity.

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Inhibitory Drugs

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Lower the resting potential, requiring a greater stimulus to cause an action potential.(causes K+ to exit cell)

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Synapse

Front of card Back of cardAlso called synaptic cleft. The space between axon ending of a presynaptic neuron and the dendrite of the post-synaptic neuron.

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Activities at Synapse

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Excitatory Synapse

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Causes depolarization of the post-synaptic neuron.Na+ goes in.

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Inhibitory Synapse

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Causes hyperpolarization of the post-synaptic neuron.K+ goes out.This inhibits depolarization

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Summation

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Two or more neurons are required to create an action potential in a post-synaptic neuron.

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Neurotransmitters

Front of card Back of cardChemicals released from synaptic vesicles to carry the impulse across the synapse. Ex. acetylcholine (parasympathetic NS)Norepinephrine (sympathetic NS)

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Tolerance

Front of card Back of cardNeed larger doses of the drug to get the same effect.

The receptors on your neurons are reduced in number.

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Sympathetic NS

Front of card Back of card“S” for StressInvoluntary; Fight or flightUses norepinephrine as neurotransmitter.

Causes: HR, BR, dilates pupils, converts glycogen to glucose, blood to skin

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Parasympathetic NS

Front of card Back of cardRest and DigestInvoluntaryUses acetylcholine as neurotransmitter.

Causes: HR, BR, constricts pupils, converts glucose to glycogen, blood to skin

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Functions of Spinal cord

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& the PNS2.Reflex arc

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Composition of Spinal Cord

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white matter = myelinated

2. Inside portion is grey matter = unmyelinated

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Cerebrospinal fluid

Front of card Back of cardSurrounds spinal cord and brain. Provides cushioning and nutrients.

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Cerebrum

Smell

Cerebrum

Front of card Back of cardSpeech, reasoning, memory & personality. 4 lobes:Frontal, parietal, temporal and occipital.

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Hypothalamus

Front of card Back of cardTemperature and metabolism.

Controls hunger, thirst, sleep and sex drive.

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Pituitary Gland

Front of card Back of cardMaster gland. Produces tropic hormones that control the release of hormones from other glands.

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Cerebellum

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Balance

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Pons

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Relay station.

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Medulla Oblongata

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Autonomic NS.BR, HR, BP

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Frontal Lobe

Front of card Back of cardMotor controlVoluntary movementsMemory, reasoning, critical thinking, language use and personality.

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Parietal Lobe

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Sensory area

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Temporal Lobe

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Hearing and smelling

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Occipital Lobe

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Vision

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Sclera

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Tough, white layer

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Cornea

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Tough clear layer on front

of eye.

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Choriod

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Black layer, absorbs light, contains blood

vessels

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Iris

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Colored muscle. Controls pupil

size

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Pupil

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Hole

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Retina

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Contains photoreceptors. – Rods and Cones

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Rods

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Photoreceptors for dim light and black and white images

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Cones

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Photoreceptors for bright light, color

and details.

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Fovea Centralis

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Also called Macula. Most cones are

here. In centre of retina

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Blind Spot

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Where the optic nerve leaves the eye. No rods or

cones.

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Ciliary muscle

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Muscle that controls the shape

of the lens.

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Lens

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Changes shape to focus.

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Accommodation

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When the lens changes shape to focus near or far.

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3D vision

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Possible because we have 2 eyes.

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2 Functions of the Ear

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Hearing and Balance

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Pinna

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Outside of ear

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Auditory Canal

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Ear canal. Amplifies sound and carries it to

tympanic membrane

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Tympanic Membrane

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Ear drum. Vibrates when sound hits it.

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Ossicles

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Bones in middle ear.

HammerAnvil

Stirrup

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Eustachian tube

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Connects middle ear to mouth and

nose. Equalization of pressure.

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Semicircular Canals

Front of card Back of cardFor dynamic

equilibrium. Fluid moves inside and bends hair cells,

which send action potential to cerebellum.

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Cochlea

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For hearing. Basilar membrane in organ of Corti moves, causing hair cells to bend, which send an action potential to

temporal lobe.

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Organ of Corti

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Where hearing happens

Inside the cochlea.

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Proprioceptors

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Stretch receptors that tell your brain what

the parts of your body are doing.

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Smell(Olfaction)

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Need smell to taste. Can smell over 10 000

odours. Chemoreceptors send info to temporal lobe.

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Taste

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Can taste bitter, sour, salty and sweet.

Chemoreceptors on tongue send nerve impulse to parietal

lobe

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